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Profile: Masters degree in physics, materials science, physical chemistry, electrical engineering and related disciplines Very good grades in the masters and bachelors degrees are mandatory Knowledge
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to develop and advance battery chemistries by introducing new functionalities into an existing battery technology to achieve ultra-high performant, sustainable and smart lithium-ion batteries. Your tasks in
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) in chemistry, materials science, geoscience, physics or related field Experience in laboratory work, e.g. synthesis and/or physicochemical characterization such as IR, CHN, PXRD High motivation
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engineering, materials science, mechanical engineering or other related fields Strong background in physical chemistry and thermodynamics including the development and understanding of phase diagrams Experience
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-based batteries and their chemistry You cooperate with partners from theory to optimize charge transport at the electrolyte/ electrode interface You take participance in regular project meetings with
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thesis. Your Profile: Successfully completed Master`s degree in the field of materials science, engineering, physics or chemistry or a similar field Very good knowledge in the field of solid-state
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: Successfully completed Master`s degree in the field of materials science, engineering, physics or chemistry Very good knowledge in the field of solid-state chemistry and materials engineering Experience in
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of materials science, engineering, physics or chemistry or a similar field Very good knowledge in the field of solid-state chemistry and materials engineering Experience in preparation / fabrication
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master degree in Physics, Chemistry or a similar discipline Strong interest in pursuing research on electrochemical systems Experience in one (or more) of the following areas is desirable: Electrochemistry
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PhD-position - Climate stress induced biogenic emissions and their impact on atmospheric composition
or stressed conditions Work on challenges related to atmospheric chemistry Be involved in the preparation and realization of airborne, Zeppelin-based field measurements of volatile organic compound emissions